The hysteretic loss and evolution of magnetocaloric behavior in both increasing and
decreasing fields of Mn 1-x Cd x CoGe (x= 0.02, 0.05, and 0.08) system prepared by …

High performance magnetocaloric materials are crucial to realize the energy efficient and
environment friendly magnetic cooling/refrigeration technology. We have designed Mn 1-x …

MnCoGe-based alloys have recently attracted much attention due to their possible large
magnetocaloric effect related to the magnetostructural coupling. In this paper, we report a …

The first-order magneto-elastic transition in the Mn–Fe–P–Si alloys can be tailored by
vanadium substitution. Alloys with a suitable V substitution provide an excellent …

This study presents the effect of Cu doping on the fundamental properties, magnetocaloric
effect, and critical behavior of Mn 5 Ge 3 system. Mn 5-x Cu x Ge 3 compounds with x= 0.1 …

MnNiSi-based alloys and isostructural systems have traditionally demonstrated impressive
magnetocaloric properties near room temperature associated with a highly tunable first …

An accurate calculation of the different magnetocaloric-related magnitudes derived from the
temperature dependence of the magnetic entropy change in materials exhibiting first-order …

The effects of Ga-doping on the phase transition behaviors and magnetocaloric properties of
MnCoGe alloys are systematically investigated through calorimetry and magnetic …

Realizing the itinerant type of magnetic exchange in Mn-based alloys is quite unusual
because of the weak hybridization between Mn-moments and conduction electrons …

MnCoGe-based materials have the potential to exhibit giant magnetocaloric effects due to
the coupling between magnetic ordering and a martensitic phase transition. Such coupling …